• Half-title (3)
• Title (5)
• Copyright (6)
• Contents (7)
• Preface (15)
• 1 Stress and Strain (19)
  • Introduction (19)
  • Stress (20)
  • Sign Convention (21)
  • Transformation of Axes (22)
  • Principal Stresses (24)
  • Mohr's Stress Circles (24)
  • Strains (27)
  • Small Strains (29)
  • Transformation of Axes (30)
  • Mohr's Strain Circles (31)
  • Force and Moment Balances (32)
  • Boundary Conditions (34)
  • Note (35)
  • Problems (35)
• 2 Elasticity (38)
  • Introduction (38)
  • Isotropic Elasticity (38)
  • Variation of Young's Modulus (40)
  • Isotropic Thermal Expansion (42)
  • Elastic Anisotropy (43)
  • Orientation Dependence of Elastic Response (45)
  • Orientation Dependence in Cubic Crystals (46)
  • Orientation Dependence in Noncubic Crystals (48)
  • Orientation Dependence in Materials Other Than Single Crystals (49)
  • Anisotropic Thermal Expansion (49)
  • REFERENCES (50)
  • Notes (50)
  • Problems (51)
• 3 Mechanical Testing (54)
  • Introduction (54)
  • Tensile Specimens (54)
  • Stress–Strain Curves (55)
  • Ductility (58)
  • True Stress and Strain (59)
  • The Bridgman Correction (61)
  • Temperature Rise (61)
  • Sheet Anisotropy (62)
  • Measurement of Force and Strain (63)
  • Axial Alignment (64)
  • Special Problems (65)
  • Compression Test (65)
  • Plane–Strain Compression (68)
  • Plane–Strain Tension (69)
  • Biaxial Tension (Hydraulic Bulge Test) (69)
  • Torsion Test (71)
  • Bend Tests (72)
  • Hardness Tests (74)
  • Mutual Indentation Hardness (77)
  • REFERENCES (78)
  • Notes (78)
  • Problems (79)
• 4 Strain Hardening of Metals (83)
  • Introduction (83)
  • Mathematical Approximations (83)
  • Power Law Approximation (85)
  • Necking (86)
  • Work Per Volume (88)
  • Localization of Strain at Defects (88)
  • Notes (89)
  • Problems (90)
• 5 Plasticity Theory (92)
  • Introduction (92)
  • Yield Criteria (92)
  • Tresca (maximum shear stress criterion) (93)
  • Von Mises Criterion (94)
  • Flow Rules (96)
  • Principle of Normality (97)
  • Effective Stress and Effective Strain (98)
  • Other Isotropic Yield Criteria (100)
  • Anisotropic Plasticity (102)
  • Effect of Strain Hardening on the Yield Locus (104)
  • REFERENCES (105)
  • Notes (105)
  • Problems (106)
• 6 Strain Rate and Temperature Dependence of Flow Stress (110)
  • Introduction (110)
  • Strain Rate Dependence of Flow Stress (110)
  • Superplasticity (113)
  • Combined Strain and Strain Rate Effects (117)
  • Strain Rate Sensitivity of bcc Metals (118)
  • Temperature Dependence (121)
  • Combined Temperature and Strain Rate Effects (121)
  • Hot Working (126)
  • REFERENCES (127)
  • Notes (127)
  • Problems (128)
• 7 Slip and Crystallographic Textures (131)
  • Introduction (131)
  • Slip Systems (131)
  • Schmid's Law (131)
  • Strains Produced by Slip (134)
  • Strain Hardening of fcc Single Crystals (135)
  • Tensile Deformation of fcc Crystals (136)
  • Slip in bcc Crystals (138)
  • Slip in hcp Crystals (139)
  • Lattice Rotation in Tension (139)
  • Lattice Rotation in Compression (141)
  • Texture Formation in Polycrystals (142)
  • Approximate Calculations of R Values (143)
  • Deformation of Polycrystals (144)
  • Texture Strengthening (145)
  • Effects of Texture on Microstructure (146)
  • REFERENCES (150)
  • Notes (150)
  • Problems (151)
• 8 Dislocation Geometry and Energy (155)
  • Introduction (155)
  • Theoretical Strength of Crystals (155)
  • The Nature of Dislocations (157)
  • Burgers Vectors (159)
  • Energy of a Screw Dislocation (160)
  • Reactions between Parallel Dislocations and Frank's Rule (162)
  • Stress Fields around Dislocations (162)
  • Forces on Dislocations (164)
  • Partial Dislocations in fcc Crystals (165)
  • Stacking Faults (167)
  • REFERENCES (170)
  • Notes (170)
  • Problems (171)
• 9 Dislocation Mechanics (173)
  • Introduction (173)
  • Frank-Read Sources (173)
    • Dislocation Pile-Ups (176)
    • Cross-Slip (176)
    • Dislocation Intersections (177)
    • Climb (181)
  • REFERENCES (181)
  • Note (181)
  • Problems (182)
• 10 Mechanical Twinning and Martenitic Shear (184)
  • Introduction (184)
  • Formal Notation (185)
  • Twinning Shear (185)
  • Twinning in fcc Metals (187)
  • Twinning in bcc Metals (187)
  • Twinning in hcp Metals (189)
  • Shapes of Twins (191)
  • Mechanism of Twinning (193)
  • Martensite Transformation (196)
  • Shape Memory and Superelasticity (196)
  • REFERENCES (199)
  • Note (199)
  • Problems (199)
• 11 Hardening Mechanisms in Metals (202)
  • Introduction (202)
  • Crystal Structure (202)
  • Grain Size (202)
  • Strain Hardening (204)
  • Solid Solution Strengthening (205)
  • Dispersion Strengthening (206)
  • Yield Points and Strain Aging (209)
  • Combined Effects (210)
  • REFERENCES (213)
  • Notes (213)
  • Problems (214)
• 12 Discontinuous and Inhomogeneous Deformation (217)
  • Stick-Slip Phenomena (217)
  • Dynamic Strain Aging (218)
  • Other Causes of Serrated Stress–Strain Curves (223)
  • Strain Localization (223)
  • REFERENCE (224)
  • Notes (224)
  • Problems (224)
• 13 Ductility and Fracture (226)
  • Introduction (226)
  • Ductile Fracture (228)
  • Brittle Fracture (234)
  • Impact Energy (236)
  • REFERENCES (239)
  • Notes (239)
  • Problems (241)
• 14 Fracture Mechanics (243)
  • Introduction (243)
  • Theoretical Fracture Strength (243)
  • Stress Concentration (245)
  • Griffith Theory (245)
  • Orowan Theory (247)
  • Fracture Modes (247)
  • Irwin's Fracture Analysis (247)
  • Plastic Zone Size (249)
  • Thin Sheets (251)
  • Temperature and Loading Rate (252)
  • Metallurgical Variables (253)
  • Fracture Mechanics in Design (253)
  • Compact Tensile Specimens (254)
  • Strain–Energy Release (255)
  • The J Integral (256)
  • REFERENCES (258)
  • Notes (258)
  • Problems (259)
  • Appendix. Size and Shape of the Plastic Zone at the Crack Tip (261)
• 15 Viscoelasticity (262)
  • Introduction (262)
  • Rheological Models (262)
  • Series Combination of Spring and Dashpot (263)
  • Parallel Combination of Spring and Dashpot (264)
  • Combined Series Parallel Model (264)
  • More Complex Models (266)
  • Damping (266)
  • Natural Decay (267)
  • Elastic Modulus – Relaxed versus Unrelaxed (268)
  • Thermoelastic Effect (269)
  • Snoek Effect in bcc Metals (271)
  • Other Damping Mechanisms (272)
  • REFERENCES (273)
  • Notes (273)
  • Problems (274)
• 16 Creep and Stress Rupture (277)
  • Introduction (277)
  • Creep Mechanisms (278)
  • Temperature Dependence of Creep (281)
  • Deformation Mechanism Maps (282)
  • Cavitation (283)
  • Rupture versus Creep (284)
  • Extrapolation Schemes (284)
  • Alloys for High-Temperature Use (287)
  • REFERENCES (289)
  • Notes (289)
  • Problems (290)
• 17 Fatigue (293)
  • Introduction (293)
  • Surface Observations (293)
  • Nomenclature (294)
  • S-N curves (296)
  • Effect of Mean Stress (297)
  • The Palmgren-Miner Rule (299)
  • Stress Concentration (300)
  • Surfaces (302)
  • Design Estimates (303)
  • Metallurgical Variables (304)
  • Strains to Failure (304)
  • Crack Propagation (307)
  • Cyclic Stress–Strain Behavior (310)
  • Temperature and Cycling Rate Effects (310)
  • Fatigue of Polymers (313)
  • Fatigue Testing (315)
  • Design Considerations (315)
  • Summary (316)
  • REFERENCES (316)
  • Notes (316)
  • Problems (317)
• 18 Residual Stresses (320)
  • Introduction (320)
  • Small-Scale Stresses (320)
  • Bauschinger Effect (323)
  • Nonuniform Cooling (324)
  • Nonuniform Material (325)
  • Stresses from Welding (325)
  • Stresses from Mechanical Working (326)
  • Consequences of Residual Stresses (328)
  • Measurement of Residual Stresses (329)
  • Relief of Residual Stresses (331)
  • REFERENCES (332)
  • Notes (332)
  • Problems (333)
• 19 Ceramics and Glasses (336)
  • Introduction (336)
  • Elastic Properties (336)
  • Slip Systems (337)
  • Hardness (337)
  • Weibull Analysis (339)
  • Testing (340)
  • Porosity (341)
  • High-Temperature Behavior (342)
  • Fracture Toughness (342)
  • Toughening of Ceramics (344)
  • Fatigue (347)
  • Silicate Glasses (347)
  • Strength of Glasses (350)
  • Thermally Induced Stresses (351)
  • Delayed Fracture (352)
  • Glassy Metals (352)
  • REFERENCES (354)
  • Notes (354)
  • Problems (355)
• 20 Polymers (357)
  • Introduction (357)
  • Elastic Behavior (357)
  • Rubber Elasticity (362)
  • Damping (363)
  • Yielding (365)
  • Effect of Strain Rate (366)
  • Effect of Pressure (368)
  • Crazing (372)
  • Yielding of Fibers in Compression (374)
  • Fracture (374)
  • Deformation Mechanism Maps (375)
  • Shape-Memory Effect (375)
  • REFERENCES (378)
  • Notes (378)
  • Problems (379)
• 21 Composites (381)
  • Introduction (381)
  • Fiber-Reinforced Composites (381)
  • Elastic Properties of Fiber-Reinforced Composites (381)
  • Strength of Fiber-Reinforced Composites (385)
  • Volume Fraction of Fibers (386)
  • Orientation Dependence of Strength (387)
  • Fiber Length (387)
  • Failure with Discontinuous Fibers (390)
  • Failure under Compression (391)
  • Typical Properties (392)
  • Particulate Composites (393)
  • Brick Wall Model (394)
  • Lamellar Composites (396)
  • Morphology of Foams (397)
  • Mechanical Properties of Foams (397)
  • Metal Foams (397)
  • Flexible Foams – Open Cell (399)
  • Flexible Foams – Closed Cell (399)
  • REFERENCES (399)
  • Notes (400)
  • Problems (400)
• 22 Mechanical Working (403)
  • Introduction (403)
  • Bulk-Forming Energy Balance (403)
  • Deformation Zone Geometry (407)
  • Friction in Bulk Forming (410)
  • Formability (411)
  • Deep Drawing (412)
  • Stamping (414)
  • REFERENCES (419)
  • Notes (419)
  • Problems (420)
• Appendix I: Miller Indices (425)
  • Planes (425)
  • Directions (425)
  • The Miller-Bravais System for Hexagonal Crystals (426)
  • Problem (429)
• Appendix II: Stereographic Representation of Orientations (430)
  • REFERENCES (432)
  • Problems (432)
• Index (433)